Sandvik Coromant 6709517 T-Max® P Negative Basic Shape Turning Insert, SNMM 646-PR 4305, S-Square, SNMM Insert, 4305

SNMM Turning Inserts
1243652 MFG #: 6709517
Sandvik Coromant
39.98000 / ea
Sandvik_5750605
  • Alternate Catalog Number: SNMM 646-PR 4305
  • ANSI Code: SNMM 646-PR 4305
  • Catalog Number: 6709517
  • Corner Radius: 0.094 in
  • Country of Origin: SE
  • Finish: CVD-TiCN+Al2O3+TiN Coated
  • For Use On: Cast Iron and Steel
  • Gross Weight Per Pack: 0.6000 lb
  • Hole Diameter: 0.312 in
  • Included Angle: 90 °
  • ISO Code: SNMM 19 06 24-PR 4305
  • Item Group: 112
  • Length: 3/4 in
  • Relief Angle: 0 °
  • Series: T-Max® P
  • Thickness: 1/4 in
  • Width: 3/4 in
  • Stock Status: NONSTOCK
  • Brand: Sandvik Coromant
  • Manufacturer: Sandvik Coromant
  • Chipbreaker: PR
  • Cutting Direction: Neutral
  • Inscribed Circle: 3/4 in
  • Insert Size: 646
  • Insert Style: SNMM
  • Manufacturer's Grade: 4305
  • Material: Carbide
  • Material Grade: K, P
  • Maximum Depth of Cut: 0.472 in
  • Rake: Negative
  • Seat Size: 19
  • Shape: Square
Sandvik Coromant Turning Insert, Negative Basic Shape, Series: T-Max® P, SNMM Insert, S-Square, 12 mm Maximum Depth of Cut, 3/4 in Inscribed Circle, 1/4 in Thickness, 3/4 in Length, PR Chipbreaker, 0.0937 in Corner Radius, 0.312 in Hole Dia, Manufacturer's Grade: 4305, ANSI Code: SNMM 646-PR 4305, ISO Code: SNMM 19 06 24-PR 4305, 90 deg Included Angle, 0 deg Relief Angle, Neutral Hand, Carbide, MTCVD Coated, Material Grade: K/P
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  • Features
HF7 grade sub-micron material without cubic carbides (type H) and with a low cobalt content
Very versatile in terms of machined materials
Small to medium chip cross sections
Suited to stable machining conditions
Suitable for turning, with an indexing accuracy to ISO tolerance class-G and chipbreakers on one side only
SF2 chipbreaker - positive rake angle
Peripherally ground
Sharp cutting edge with minimal edge radius
For small and slender components
High process security
Broad assortment of inserts covers wide range of applications
Low cutting forces prevent work hardening
Excellent surface finish